CN103346619A - Online monitoring and performance assessing method for primary frequency modulation of thermal generator set - Google Patents

Abstract

The invention discloses an online monitoring and performance assessing method for primary frequency modulation of a thermal generator set. The method divides grid frequency changes into invalid disturbance, valid disturbance, large frequency disturbance and small frequency disturbance, wherein the large frequency disturbance and the small frequency disturbance are contained in the valid disturbance. Specific performance indexes of response time, stabilization time, diversity factors of set rotating speed and the like of the primary frequency modulation of the set are quantitatively assessed, the contributed electric quantity and the correct operation rate of the primary frequency modulation under the small disturbance of the set and the diversity factors of the set rotating speed under the large disturbance of the set can be effectively calculated, and an assessing method for the performance of the primary frequency modulation of the set is further provided. The online monitoring and performance assessing method for the primary frequency modulation of the thermal generator set has the advantages that calculation and monitoring can be carried out on the operation performance of the primary frequency modulation of the set in a long period of time, the comprehensive index of the primary frequency modulation of the set is further calculated, an assessing method is quantified, and the performance of the primary frequency modulation of sets in a network can be comprehensively learned by province professionals.

Description

Thermal power generation unit primary frequency modulation on-line monitoring and performance wire examination method

Technical field

The present invention relates to a kind of thermal power generation unit primary frequency modulation on-line monitoring and performance wire examination method.

Background technology

Along with the progress of power technology, the installed capacity of monoblock is increasing, and the automatic control of unit and troubleshooting capability have also been proposed high requirement, and the monoblock fault is also increasing to influence and the impact of electrical network simultaneously.Load growth and electrical network scale increase, and be particularly under the new situation interconnected at extra-high voltage grid and large regional grid, also more and more higher to the power supply quality requirement of electrical network.Current electric energy has become the indispensable energy of our daily life, frequency is to estimate the important indicator of the quality of power supply, reflected the equilibrium relation between generating active power and the power load, frequency surpasses allowed band can influence the health of power system stability, power consumption equipment, user's safety and economic benefit, therefore improve the stable and frequency response ability timely of power system frequency, guaranteeing high-quality supply of electric power, is very important.Thermal power generation unit primary frequency modulation function is that turbine regulating system is regulated valve opening automatically according to the variation of mains frequency, changes steam turbine power to adapt to load variations.Energy by boiler accumulation of energy support primary frequency modulation reaches electric power grid frequency stabilization, and responsive electricity grid requirement fast remedies the network load gap, ensures electric power netting safe running.

The existing separate unit unit primary frequency modulation performance of estimating is to adopt the dynamic performance comprehensive index: the performance index such as response time, stabilization time, rotating speed dead band and momentary speed variation that generally adopt the unit primary frequency modulation.Yet, because the changeable dynamic characteristic of primary frequency modulation index parameter test and appraisal can not calculate dynamic indicator in real time accurately.There is certain research in many provinces and area to monitoring and the wire examination method of unit primary frequency modulation, majority is to carry out the primary frequency modulation test before change is incorporated into the power networks to the big light maintenance of unit or equipment, to a certain specific steady state condition next time the frequency modulation result of the test judge, there is deviation with the adjusting function in the actual motion, comprehensively real-time exact grasp unit primary frequency modulation dynamic property.

Summary of the invention

The present invention estimates separate unit and inaccurate, the incomplete problem of Duo Tai unit primary frequency modulation dynamic adjustments performance in order to overcome in the prior art, proposed a kind of thermal power generation unit primary frequency modulation on-line monitoring and performance wire examination method.

To achieve these goals, the present invention adopts following technical scheme:

A kind of thermal power generation unit primary frequency modulation on-line monitoring and performance wire examination method may further comprise the steps:

A kind of thermal power generation unit primary frequency modulation on-line monitoring and performance wire examination method may further comprise the steps:

(1) gathers power plant's PMU substation field data by the PMU main website, comprising: unit bus frequency, active power;

(2) determine the adjustment upper limit of unit primary frequency modulation and adjust lower limit;

(3) judge whether the disturbance of unit primary frequency modulation is effective disturbance;

(4) if effectively disturbance judges whether the effective disturbance of unit primary frequency modulation is the big disturbance of frequency;

(5) if effectively disturbance and is not the big disturbance of frequency, judge whether to be the frequency microvariations;

(6) this primary frequency modulation action is calculated in the back by the power action extreme value of primary frequency modulation action speed governor droop L takes place in big disturbance; The back takes place and calculates unit primary frequency modulation contribution electric weight H in the primary frequency modulation response interval in microvariations _i, when system frequency deviation surpasses the scope of regulation, put preceding average value P of exerting oneself in two seconds with unit primary frequency modulation dead band ₀Be basic point, integration generating variable quantity returns in the unit operating dead zone until system frequency backward; By primary frequency modulation contribution electric weight H _iJudge whether correct operation of unit: the integrated value H of active power variable quantity _iPositive and negative and frequency change direction judge that whether primary frequency modulation moves, as electrical network frequency difference Δ f=f _t-f _eDuring＞0.033Hz, H _i＜0, then think the primary frequency modulation correct operation, otherwise think the primary frequency modulation incorrect operation;

(7) start during electrical network generation disturbance and examined the primary frequency modulation index of unit to calculate and examination to all: microvariations computer-chronograph group primary frequency modulation performance factor λ wherein; When mains frequency takes place than great fluctuation process, calculate the overall target K of each unit primary frequency modulation examination performance.

The decision method of the described adjustment upper limit and adjustment lower limit is: the power of the assembling unit is at 20%P _e-105%P _eWhen examining end to surpass 20 seconds between the scope and apart from performance monitoring last time:

(a) current exerting oneself+current frequency difference is adjusted load P _{Δ f}＜unit output upper limit 105%P _e, adjust the upper limit=current exerting oneself+current frequency difference and adjust load P _{Δ f}

(b) current exerting oneself+current frequency difference is adjusted load P _{Δ f}〉=unit output upper limit 105%P _e, adjust the upper limit=unit output upper limit 105%P _e

(c) current exerting oneself+current frequency difference is adjusted load P _{Δ f}Unit output lower limit 20%P _e, adjust lower limit=current exerting oneself+current frequency difference and adjust load P _{Δ f}

(d) current exerting oneself+current frequency difference is adjusted load P _{Δ f}＜=unit output lower limit 20%P _e, adjust lower limit=unit output lower limit 20%P _e

Wherein, P _eSpecified active power for unit;

Frequency difference is adjusted load P _{Δ f}As shown in table 1.

Table 1

The criterion of described effective disturbance is: the power of the assembling unit is at 20%P _e-100%P _eBetween the scope, and unit bus frequency continues more than 10 seconds maximum frequency deviation with frequency at least above the numerical value (0.033Hz) in primary frequency modulation dead band outside the numerical value of primary frequency modulation dead band | Δ f| _Max0.045Hz, be no more than the section to be selected of 60 seconds the effective disturbance of frequency zones intercropping at most, otherwise, be invalid disturbance; Wherein, Δ f=f _t-f _e, f _tBe the frequency in a certain moment of unit bus, f _eBe electrical network rated frequency 50Hz.

Described big disturbance criterion is: satisfying under the prerequisite of effective disturbance, the frequency discontinuity value of unit bus frequency in the 3s mutation time surpasses 0.05Hz, and the duration was above 1 second.

Described microvariations criterion is: this unit bus frequency departure | Δ f|〉and 0.033Hz and lasting overtime be more than 10 seconds, maximum frequency deviation simultaneously | Δ f| _Max0.045Hz.

The computing formula of described speed governor droop L is:

$L=-\frac{-\left(\right|f_1-50|-0.033)*P_e}{|P_2-P_1|}*f_e$

Wherein:

P ₁Be big disturbance initial power value, get big disturbance chugging preceding 1 second power average value in back takes place;

P ₂Be the power action extreme value of big disturbance primary frequency modulation action 3-60 in second;

f ₁Be stabilized frequency, get the frequency averaging value of 1s after the frequency stabilization;

P _eRated capacity for unit;

f _eThe rated frequency 50Hz of electrical network.

The primary frequency modulation contribution electric weight H of described unit i _iBe expressed as:

In the formula:

H _i: the primary frequency modulation contribution electric weight of unit i;

t ₀: system frequency surpasses the moment of unit primary frequency modulation operating dead zone;

t _t: system frequency enters the moment of unit primary frequency modulation operating dead zone;

P _t: t is unit actual power active power constantly;

P ₀: the machine class frequency is got over the preceding 2 seconds active power mean value in dead band;

H _iSign convention: high frequency send out less or the multiple electric weight of low frequency for just, the multiple or few energy output of low frequency of high frequency is for negative.

Described unit primary frequency modulation moon performance factor λ:

$\mathrm{\λ}=\frac{f_{\mathrm{correct}}}{f_{\mathrm{correct}}+f_{\mathrm{wrong}}}\×100\%$

Wherein: f _CorrectBe every month correct operation number of times;

f _WrongBe every month malfunction number of times;

Primary frequency modulation performance factor λ presses unit examination, for the primary frequency modulation moon performance factor less than 80% unit, every monthly examination nuclear power amount is: (80%-λ) * P _e* 2 (hour) * α _{Primary frequency modulation}

In the formula:

λ is unit primary frequency modulation moon performance factor;

P _eBe unit rated capacity (MW);

α _{Primary frequency modulation}Be primary frequency modulation examination coefficient, numerical value is 3.

The computational methods of the overall target K of described unit primary frequency modulation examination performance are: K=1-5%/L;

For one of unit response time, the speed of response, stabilization time not satisfying the national grid relevant regulations, or speed governor droop L 〉=30%, then K=1; The computing formula of examining greater than zero unit for K is as follows:

K * P _e* 1 (hour) * α _{Primary frequency modulation}

In the formula:

K is the overall target of unit primary frequency modulation examination;

P _eBe unit rated capacity (MW);

α _{Primary frequency modulation}Be primary frequency modulation examination coefficient, numerical value is 3.

Beneficial effect of the present invention:

Can calculate supervision to unit primary frequency modulation performance for a long time, and unit primary frequency modulation overall target calculated, quantizing wire examination method, make province transfer the professional can grasp the primary frequency modulation performance of unit in the net comprehensively, is a kind of assay method of comprehensive practicality.

Description of drawings

Fig. 1 is the effective disturbance curve chart of primary frequency modulation among the present invention;

Fig. 2 is the flow chart of monitoring of the present invention and performance wire examination method.

Embodiment

The present invention will be further described below in conjunction with accompanying drawing and embodiment.

Among Fig. 1, from 0 position point by point scanning also relatively, when the time window moved to the AB interval, frequency change satisfied big disturbance criterion.Continue to drop to the C point from the B dot frequency and reach the maximum frequency deviation position, frequency deviation falls slightly after rise to frequency stabilization point D point and tends towards stability then, and the primary frequency modulation response was interval when the zone between the AD was exactly big disturbance.

Among Fig. 2, a kind of thermal power generation unit primary frequency modulation on-line monitoring and performance wire examination method may further comprise the steps:

(1) gathers power plant's PMU substation field data by the PMU main website, comprising: unit bus frequency, active power;

(2) determine the adjustment upper limit of unit primary frequency modulation and adjust lower limit;

(3) judge whether the disturbance of unit primary frequency modulation is effective disturbance;

(4) if effectively disturbance judges whether the effective disturbance of unit primary frequency modulation is the big disturbance of frequency;

(5) if effectively disturbance and is not the big disturbance of frequency, judge whether to be the frequency microvariations;

(6) this primary frequency modulation action is calculated in the back by the power action extreme value of primary frequency modulation action speed governor droop L takes place in big disturbance; The back takes place and calculates unit primary frequency modulation contribution electric weight H in the primary frequency modulation response interval in microvariations _i, when system frequency deviation surpasses the scope of regulation, put preceding average value P of exerting oneself in two seconds with unit primary frequency modulation dead band ₀Be basic point, integration generating variable quantity returns in the unit operating dead zone until system frequency backward; By primary frequency modulation contribution electric weight H _iJudge whether correct operation of unit: the integrated value H of active power variable quantity _iPositive and negative and frequency change direction judge that whether primary frequency modulation moves, as electrical network frequency difference Δ f=f _t-f _eDuring＞0.033Hz, H _i＜0, then think the primary frequency modulation correct operation, otherwise think the primary frequency modulation incorrect operation;

(7) start during electrical network generation disturbance and examined the primary frequency modulation index of unit to calculate and examination to all: microvariations computer-chronograph group primary frequency modulation performance factor λ wherein; When mains frequency takes place than great fluctuation process, calculate the overall target K of each unit primary frequency modulation examination performance.

The decision method of the described adjustment upper limit and adjustment lower limit is: the power of the assembling unit is at 20%P _e-105%P _eWhen examining end to surpass 20 seconds between the scope and apart from performance monitoring last time:

(a) current exerting oneself+current frequency difference is adjusted load P _{Δ f}＜unit output upper limit 105%P _e, adjust the upper limit=current exerting oneself+current frequency difference and adjust load P _{Δ f}

(b) current exerting oneself+current frequency difference is adjusted load P _{Δ f}〉=unit output upper limit 105%P _e, adjust the upper limit=unit output upper limit 105%P _e

(c) current exerting oneself+current frequency difference is adjusted load P _{Δ f}Unit output lower limit 20%P _e, adjust lower limit=current exerting oneself+current frequency difference and adjust load P _{Δ f}

(d) current exerting oneself+current frequency difference is adjusted load P _{Δ f}＜=unit output lower limit 20%P _e, adjust lower limit=unit output lower limit 20%P _e

Wherein, P _eSpecified active power for unit;

Frequency difference is adjusted load P _{Δ f}As shown in table 1.

Table 1

The criterion of described effective disturbance is: the power of the assembling unit is at 20%P _e-100%P _eBetween the scope, and unit bus frequency continues more than 10 seconds-maximum frequency deviation with frequency at least above the numerical value (0.033Hz) in primary frequency modulation dead band outside the numerical value of primary frequency modulation dead band | Δ f| _Max0.045Hz, be no more than the section to be selected of 60 seconds the effective disturbance of frequency zones intercropping at most, otherwise, be invalid disturbance.Wherein, Δ f=f _t-f _e, f _tBe the frequency in a certain moment of unit bus, f _eBe electrical network rated frequency 50Hz.

Described big disturbance criterion is: satisfying under the prerequisite of effective disturbance, the frequency discontinuity value of unit bus frequency in the 3s mutation time surpasses 0.05Hz, and the duration was above 1 second.

Described microvariations criterion is: this unit bus frequency departure | Δ f|〉and 0.033Hz and lasting overtime be more than 10 seconds, maximum frequency deviation simultaneously | Δ f| _Max0.045Hz.

The computing formula of described speed governor droop L is:

$L=-\frac{-\left(\right|f_1-50|-0.033)*P_e}{|P_2-P_1|}*f_e$

Wherein:

P ₁Be big disturbance initial power value, get big disturbance chugging preceding 1 second power average value in back takes place;

P ₂Be the power action extreme value of big disturbance primary frequency modulation action 3-60 in second;

f ₁Be stabilized frequency, get the frequency averaging value of 1s after the frequency stabilization;

P _eRated capacity for unit;

f _eThe rated frequency 50Hz of electrical network.

The primary frequency modulation contribution electric weight H of described unit i _iBe expressed as:

In the formula:

H _i: the primary frequency modulation contribution electric weight of unit i;

t ₀: system frequency surpasses the moment of unit primary frequency modulation operating dead zone;

t _t: system frequency enters the moment of unit primary frequency modulation operating dead zone;

P _t: t is unit actual power active power constantly;

P ₀: the machine class frequency is got over the preceding 2 seconds active power mean value in dead band;

H _iSign convention: high frequency send out less or the multiple electric weight of low frequency for just, the multiple or few energy output of low frequency of high frequency is for negative.

Described unit primary frequency modulation moon performance factor λ:

$\mathrm{\λ}=\frac{f_{\mathrm{correct}}}{f_{\mathrm{correct}}+f_{\mathrm{wrong}}}\×100\%$

Wherein: f _CorrectBe every month correct operation number of times;

f _WrongBe every month malfunction number of times;

Primary frequency modulation performance factor λ presses unit examination, for the primary frequency modulation moon performance factor less than 80% unit, every monthly examination nuclear power amount is: (80%-λ) * P _e* 2 (hour) * α _{Primary frequency modulation}

In the formula:

λ is unit primary frequency modulation moon performance factor;

P _eBe unit rated capacity (MW);

α _{Primary frequency modulation}Be primary frequency modulation examination coefficient, numerical value is 3.

The computational methods of the overall target K of described unit primary frequency modulation examination performance are: K=1-5%/L;

For one of unit response time, the speed of response, stabilization time not satisfying the national grid relevant regulations, or speed governor droop L 〉=30%, then K=1; The computing formula of examining greater than zero unit for K is as follows:

K * P _e* 1 (hour) * α _{Primary frequency modulation}

In the formula:

K is the overall target of unit primary frequency modulation examination;

P _eBe unit rated capacity (MW);

α _{Primary frequency modulation}Be primary frequency modulation examination coefficient, numerical value is 3.

Though above-mentionedly by reference to the accompanying drawings the specific embodiment of the present invention is described; but be not limiting the scope of the invention; one of ordinary skill in the art should be understood that; on the basis of technical scheme of the present invention, those skilled in the art do not need to pay various modifications that creative work can make or distortion still in protection scope of the present invention.

Claims (9)

1. a thermal power generation unit primary frequency modulation on-line monitoring and performance wire examination method is characterized in that, may further comprise the steps:

(1) gathers power plant's PMU substation field data by the PMU main website, comprising: unit bus frequency, active power;

(2) determine the adjustment upper limit of unit primary frequency modulation and adjust lower limit;

(3) judge whether the disturbance of unit primary frequency modulation is effective disturbance;

(4) if effectively disturbance judges whether the effective disturbance of unit primary frequency modulation is the big disturbance of frequency;

(5) if effectively disturbance and is not the big disturbance of frequency, judge whether to be the frequency microvariations;

(6) this primary frequency modulation action is calculated in the back by the power action extreme value of primary frequency modulation action speed governor droop L takes place in big disturbance; The back takes place and calculates unit primary frequency modulation contribution electric weight H in the primary frequency modulation response interval in microvariations _i, by primary frequency modulation contribution electric weight H _iJudge whether correct operation of unit;

(7) start during electrical network generation disturbance and examined the primary frequency modulation index of unit to calculate and examination to all: microvariations computer-chronograph group primary frequency modulation performance factor λ wherein; When mains frequency takes place than great fluctuation process, calculate the overall target K of each unit primary frequency modulation examination performance.

2. a kind of thermal power generation unit primary frequency modulation on-line monitoring as claimed in claim 1 and performance wire examination method is characterized in that, the decision method of the described adjustment upper limit and adjustment lower limit is: the power of the assembling unit is at 20%P _e-105%P _eWhen examining end to surpass 20 seconds between the scope and apart from performance monitoring last time:

(a) current exerting oneself+current frequency difference is adjusted load P _{Δ f}＜unit output upper limit 105%P _e, adjust the upper limit=current exerting oneself+current frequency difference and adjust load P _{Δ f}

(b) current exerting oneself+current frequency difference is adjusted load P _{Δ f}〉=unit output upper limit 105%P _e, adjust the upper limit=unit output upper limit 105%P _e

(c) current exerting oneself+current frequency difference is adjusted load P _{Δ f}Unit output lower limit 20%P _e, adjust lower limit=current exerting oneself+current frequency difference and adjust load P _{Δ f}

(d) current exerting oneself+current frequency difference is adjusted load P _{Δ f}＜=unit output lower limit 20%P _e, adjust lower limit=unit output lower limit 20%P _e

Wherein, P _eSpecified active power for unit.

3. a kind of thermal power generation unit primary frequency modulation on-line monitoring as claimed in claim 1 and performance wire examination method is characterized in that the criterion of described effective disturbance is: the power of the assembling unit is at 20%P _e-100%P _eBetween the scope, and unit bus frequency continues more than 10 seconds maximum frequency deviation with frequency at least above the numerical value in primary frequency modulation dead band outside the numerical value of primary frequency modulation dead band | Δ f| _Max0.045Hz, be no more than the section to be selected of 60 seconds the effective disturbance of frequency zones intercropping at most, otherwise, be invalid disturbance.

4. a kind of thermal power generation unit primary frequency modulation on-line monitoring as claimed in claim 1 and performance wire examination method, it is characterized in that, described big disturbance criterion is: satisfying under the prerequisite of effective disturbance, the frequency discontinuity value of unit bus frequency in the 3s mutation time surpasses 0.05Hz, and the duration was above 1 second.

5. a kind of thermal power generation unit primary frequency modulation on-line monitoring as claimed in claim 1 and performance wire examination method, it is characterized in that, described microvariations criterion is: this unit bus frequency departure | Δ f|〉and 0.033Hz and lasting overtime be more than 10 seconds, maximum frequency deviation simultaneously | Δ f| _Max0.045Hz.

6. a kind of thermal power generation unit primary frequency modulation on-line monitoring as claimed in claim 1 and performance wire examination method is characterized in that the computing formula of described speed governor droop L is:

Wherein:

P ₁Be big disturbance initial power value;

P ₂Be the power action extreme value of big disturbance primary frequency modulation action 3-60 in second;

f ₁Be stabilized frequency;

P _eRated capacity for unit;

f _eThe rated frequency 50Hz of electrical network.

7. a kind of thermal power generation unit primary frequency modulation on-line monitoring as claimed in claim 1 and performance wire examination method is characterized in that, the primary frequency modulation contribution electric weight H of described unit i _iBe expressed as:

In the formula:

H _i: the primary frequency modulation contribution electric weight of unit i;

t ₀: system frequency surpasses the moment of unit primary frequency modulation operating dead zone;

t _t: system frequency enters the moment of unit primary frequency modulation operating dead zone;

P _t: t is unit actual power active power constantly;

P ₀: the machine class frequency is got over the preceding 2 seconds active power mean value in dead band;

H _iSign convention: high frequency send out less or the multiple electric weight of low frequency for just, the multiple or few energy output of low frequency of high frequency is for negative.

8. a kind of thermal power generation unit primary frequency modulation on-line monitoring as claimed in claim 1 and performance wire examination method is characterized in that, described unit primary frequency modulation moon performance factor λ:

Wherein: f _CorrectBe every month correct operation number of times;

f _WrongBe every month malfunction number of times;

Primary frequency modulation performance factor λ presses unit examination, for the primary frequency modulation moon performance factor less than 80% unit, every monthly examination nuclear power amount is: (80%-λ) * P _e* 2 (hour) * α _{Primary frequency modulation}

In the formula:

λ is unit primary frequency modulation moon performance factor;

P _eBe the unit rated capacity;

α _{Primary frequency modulation}Be primary frequency modulation examination coefficient.

9. a kind of thermal power generation unit primary frequency modulation on-line monitoring as claimed in claim 1 and performance wire examination method is characterized in that, the computational methods of the overall target K of described unit primary frequency modulation examination performance are: K=1-5%/L;

For one of unit response time, the speed of response, stabilization time not satisfying the national grid relevant regulations, or speed governor droop L 〉=30%, then K=1; The computing formula of examining greater than zero unit for K is as follows:

K * P _e* 1 (hour) * α _{Primary frequency modulation}

In the formula:

K is the overall target of unit primary frequency modulation examination;

P _eBe the unit rated capacity;

α _{Primary frequency modulation}Be primary frequency modulation examination coefficient.

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